Chapter 8 – COM, Momentum and Collision

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A particle strikes a horizontal frictionless floor with a speed u at an angle θ with the vertical, and rebounds with a speed v at an angle ϕ with vertical. The coefficient of restitution between the particle and floor is e. The magnitude of v is
29
Oct
A particle strikes a horizontal frictionless floor with a speed u at an angle θ with the vertical, and rebounds with a speed v at an angle ϕ with vertical. The coefficient of restitution between the particle and floor is e. The magnitude of v is A particle strikes a horizontal frictionless floor with a [...]
Posted in: Chapter 8 - COM, Momentum and Collision , MTG NEET Physics , Part 1 ,
Tags: A particle strikes a horizontal frictionless floor with a speed u at an angle θ with the vertical , and rebounds with a speed v at an angle ϕ with vertical. The coefficient of restitution between the particle and floor is e. The magnitude of v is ,
A body of mass 1 kg strikes elastically with another body at rest and continues to move in the same direction with one fourth of its initial velocity. The mass of the other body is
29
Oct
A body of mass 1 kg strikes elastically with another body at rest and continues to move in the same direction with one fourth of its initial velocity. The mass of the other body is A body of mass 1 kg strikes elastically with another body at rest and continues to move in the same [...]
Posted in: Chapter 8 - COM, Momentum and Collision , MTG NEET Physics , Part 1 ,
Tags: A body of mass 1 kg strikes elastically with another body at rest and continues to move in the same direction with one fourth of its initial velocity. The mass of the other body is ,
A bullet of mass m travelling with a speed v hits a block of mass M initially at rest and gets embedded in it. The combined system is free to move and there is no other force acting on the system. The heat generated in the process will be
29
Oct
A bullet of mass m travelling with a speed v hits a block of mass M initially at rest and gets embedded in it. The combined system is free to move and there is no other force acting on the system. The heat generated in the process will be A sphere of mass m moving [...]
Posted in: Chapter 8 - COM, Momentum and Collision , MTG NEET Physics , Part 1 ,
Tags: A sphere of mass m moving with a constant velocity u hits another stationary sphere of the same mass and of coefficient of restitution (e). The ratio of velocities of the two spheres , after collision will be ,
A car of mass 400 kg travelling at 72 kmh crashes a truck of mass 4000 kg and travelling at 9 kmh in the same direction. The car bounces back with a speed of 18 kmh. The speed of the truck after the impact is
29
Oct
A car of mass 400 kg travelling at 72 kmh crashes a truck of mass 4000 kg and travelling at 9 kmh in the same direction. The car bounces back with a speed of 18 kmh. The speed of the truck after the impact is A sphere of mass m moving with a constant velocity [...]
Posted in: Chapter 8 - COM, Momentum and Collision , MTG NEET Physics , Part 1 ,
Tags: A sphere of mass m moving with a constant velocity u hits another stationary sphere of the same mass and of coefficient of restitution (e). The ratio of velocities of the two spheres , after collision will be ,
Two particles of same mass m moving with velocities u1 and u2 collide perfectly inelastically. The loss of kinetic energy is
29
Oct
Two particles of same mass m moving with velocities u1 and u2 collide perfectly inelastically. The loss of kinetic energy is Two particles of same mass m moving with velocities u1 and u2 collide perfectly inelastically. The loss of kinetic energy is October 29, 2020 Category: Chapter 8 - COM, Momentum and Collision , MTG [...]
Posted in: Chapter 8 - COM, Momentum and Collision , MTG NEET Physics , Part 1 ,
Tags: Two particles of same mass m moving with velocities u1 and u2 collide perfectly inelastically. The loss of kinetic energy is ,
A glass marble dropped from a certain height above the horizontal surface reaches the surface in time t and then continues to bounce up and down. The time in which the marble finally comes to rest is :
29
Oct
A glass marble dropped from a certain height above the horizontal surface reaches the surface in time t and then continues to bounce up and down. The time in which the marble finally comes to rest is : A sphere of mass m moving with a constant velocity u hits another stationary sphere of the [...]
Posted in: Chapter 8 - COM, Momentum and Collision , MTG NEET Physics , Part 1 ,
Tags: A sphere of mass m moving with a constant velocity u hits another stationary sphere of the same mass and of coefficient of restitution (e). The ratio of velocities of the two spheres , after collision will be ,
A particle of mass m moving east with a speed v collides with another particle of the same mass and the same speed v moving towards the north. if the two particles strick to each other, the new particle of mass 2m will have a speed of
29
Oct
A particle of mass m moving east with a speed v collides with another particle of the same mass and the same speed v moving towards the north. if the two particles strick to each other, the new particle of mass 2m will have a speed of A particle of mass m moving east with [...]
Posted in: Chapter 8 - COM, Momentum and Collision , MTG NEET Physics , Part 1 ,
Tags: A particle of mass m moving east with a speed v collides with another particle of the same mass and the same speed v moving towards the north. if the two particles strick to each other , the new particle of mass 2m will have a speed of ,
A 2 kg ball moving at 12ms^−1 undergoes head collision with a 4kg ball moving in the opposite direction at 48m/s. if the coefficient of restitution is 2/3, their velocities in m/s after collision are
29
Oct
A 2 kg ball moving at 12ms^−1 undergoes head collision with a 4kg ball moving in the opposite direction at 48m/s. if the coefficient of restitution is 2/3, their velocities in m/s after collision are A 2 kg ball moving at 12ms^−1 undergoes head collision with a 4kg ball moving in the opposite direction at [...]
Posted in: Chapter 8 - COM, Momentum and Collision , MTG NEET Physics , Part 1 ,
Tags: A 2 kg ball moving at 12ms^−1 undergoes head collision with a 4kg ball moving in the opposite direction at 48m/s. if the coefficient of restitution is 2/3 , their velocities in m/s after collision are ,
A metal ball of mass 2 kg moving with speed of 36 km/hr is having a collision with a stationary ball of mass 3 kg. If after collision, both the balls move together, the loss in kinetic energy due to collision is :
29
Oct
A metal ball of mass 2 kg moving with speed of 36 km/hr is having a collision with a stationary ball of mass 3 kg. If after collision, both the balls move together, the loss in kinetic energy due to collision is : A metal ball of mass 2 kg moving with speed of 36 [...]
Posted in: Chapter 8 - COM, Momentum and Collision , MTG NEET Physics , Part 1 ,
Tags: A metal ball of mass 2 kg moving with speed of 36 km/hr is having a collision with a stationary ball of mass 3 kg. If after collision , both the balls move together , the loss in kinetic energy due to collision is. ,
Ball 1 collides with an another identical ball 2 at rest as shown in figure. For what value of coefficient of restitution e, the velocity of second ball becomes two times that of 1 after collision?
29
Oct
Ball 1 collides with an another identical ball 2 at rest as shown in figure. For what value of coefficient of restitution e, the velocity of second ball becomes two times that of 1 after collision? Ball 1 collides with an another identical ball 2 at rest as shown in figure. For what value of [...]
Posted in: Chapter 8 - COM, Momentum and Collision , MTG NEET Physics , Part 1 ,
Tags: Ball 1 collides with an another identical ball 2 at rest as shown in figure. For what value of coefficient of restitution e , the velocity of second ball becomes two times that of 1 after collision? ,